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nxdumptool/source/bktr.c

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/*
* bktr.c
*
2020-07-07 12:55:37 +01:00
* Copyright (c) 2018-2020, SciresM.
2020-12-23 17:48:57 +00:00
* Copyright (c) 2020-2021, DarkMatterCore <pabloacurielz@gmail.com>.
*
* This file is part of nxdumptool (https://github.com/DarkMatterCore/nxdumptool).
*
* nxdumptool is free software; you can redistribute it and/or modify it
* under the terms and conditions of the GNU General Public License,
* version 2, as published by the Free Software Foundation.
*
* nxdumptool is distributed in the hope it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include "utils.h"
#include "bktr.h"
/* Function prototypes. */
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static bool bktrPhysicalSectionRead(BktrContext *ctx, void *out, u64 read_size, u64 offset);
static bool bktrAesCtrExStorageRead(BktrContext *ctx, void *out, u64 read_size, u64 virtual_offset, u64 section_offset);
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NX_INLINE BktrIndirectStorageBucket *bktrGetIndirectStorageBucket(BktrIndirectStorageBlock *block, u32 bucket_num);
static BktrIndirectStorageEntry *bktrGetIndirectStorageEntry(BktrIndirectStorageBlock *block, u64 offset);
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NX_INLINE BktrAesCtrExStorageBucket *bktrGetAesCtrExStorageBucket(BktrAesCtrExStorageBlock *block, u32 bucket_num);
static BktrAesCtrExStorageEntry *bktrGetAesCtrExStorageEntry(BktrAesCtrExStorageBlock *block, u64 offset);
bool bktrInitializeContext(BktrContext *out, NcaFsSectionContext *base_nca_fs_ctx, NcaFsSectionContext *update_nca_fs_ctx)
{
NcaContext *base_nca_ctx = NULL, *update_nca_ctx = NULL;
if (!out || !base_nca_fs_ctx || !(base_nca_ctx = (NcaContext*)base_nca_fs_ctx->nca_ctx) || \
!update_nca_fs_ctx || !update_nca_fs_ctx->enabled || !(update_nca_ctx = (NcaContext*)update_nca_fs_ctx->nca_ctx) || \
update_nca_fs_ctx->section_type != NcaFsSectionType_PatchRomFs || update_nca_fs_ctx->encryption_type != NcaEncryptionType_AesCtrEx || \
base_nca_ctx->header.program_id != update_nca_ctx->header.program_id || base_nca_ctx->header.content_type != update_nca_ctx->header.content_type || \
__builtin_bswap32(update_nca_fs_ctx->header.patch_info.indirect_bucket.header.magic) != NCA_BKTR_MAGIC || \
__builtin_bswap32(update_nca_fs_ctx->header.patch_info.aes_ctr_ex_bucket.header.magic) != NCA_BKTR_MAGIC || \
(update_nca_fs_ctx->header.patch_info.indirect_bucket.offset + update_nca_fs_ctx->header.patch_info.indirect_bucket.size) != update_nca_fs_ctx->header.patch_info.aes_ctr_ex_bucket.offset || \
(update_nca_fs_ctx->header.patch_info.aes_ctr_ex_bucket.offset + update_nca_fs_ctx->header.patch_info.aes_ctr_ex_bucket.size) != update_nca_fs_ctx->section_size || \
(base_nca_ctx->rights_id_available && !base_nca_ctx->titlekey_retrieved) || (update_nca_ctx->rights_id_available && !update_nca_ctx->titlekey_retrieved))
{
LOG_MSG("Invalid parameters!");
return false;
}
/* Free output context beforehand. */
bktrFreeContext(out);
/* Update missing base NCA RomFS status. */
out->missing_base_romfs = (!base_nca_fs_ctx->enabled || base_nca_fs_ctx->section_type != NcaFsSectionType_RomFs || base_nca_fs_ctx->encryption_type == NcaEncryptionType_AesCtrEx);
/* Initialize base NCA RomFS context. */
if (!out->missing_base_romfs && !romfsInitializeContext(&(out->base_romfs_ctx), base_nca_fs_ctx))
{
LOG_MSG("Failed to initialize base NCA RomFS context!");
return false;
}
/* Fill context. */
bool success = false, dump_patch_romfs_header = false;
NcaPatchInfo *patch_info = &(update_nca_fs_ctx->header.patch_info);
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/* Allocate space for an extra (fake) indirect storage entry, to simplify our logic. */
out->indirect_block = calloc(1, patch_info->indirect_bucket.size + ((0x3FF0 / sizeof(u64)) * sizeof(BktrIndirectStorageEntry)));
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if (!out->indirect_block)
{
LOG_MSG("Unable to allocate memory for the BKTR Indirect Storage Block!");
goto end;
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}
/* Read indirect storage block data. */
if (!ncaReadFsSection(update_nca_fs_ctx, out->indirect_block, patch_info->indirect_bucket.size, patch_info->indirect_bucket.offset))
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{
LOG_MSG("Failed to read BKTR Indirect Storage Block data!");
goto end;
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}
/* Allocate space for an extra (fake) AesCtrEx storage entry, to simplify our logic. */
out->aes_ctr_ex_block = calloc(1, patch_info->aes_ctr_ex_bucket.size + (((0x3FF0 / sizeof(u64)) + 1) * sizeof(BktrAesCtrExStorageEntry)));
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if (!out->aes_ctr_ex_block)
{
LOG_MSG("Unable to allocate memory for the BKTR AesCtrEx Storage Block!");
goto end;
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}
/* Read AesCtrEx storage block data. */
if (!ncaReadFsSection(update_nca_fs_ctx, out->aes_ctr_ex_block, patch_info->aes_ctr_ex_bucket.size, patch_info->aes_ctr_ex_bucket.offset))
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{
LOG_MSG("Failed to read BKTR AesCtrEx Storage Block data!");
goto end;
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}
if (out->aes_ctr_ex_block->physical_size != patch_info->aes_ctr_ex_bucket.offset)
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{
LOG_DATA(out->aes_ctr_ex_block, patch_info->aes_ctr_ex_bucket.size, "Invalid BKTR AesCtrEx Storage Block size! AesCtrEx Storage Block dump:");
goto end;
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}
/* This simplifies logic greatly... */
for(u32 i = (out->indirect_block->bucket_count - 1); i > 0; i--)
{
BktrIndirectStorageBucket tmp_bucket = {0};
memcpy(&tmp_bucket, &(out->indirect_block->indirect_storage_buckets[i]), sizeof(BktrIndirectStorageBucket));
memcpy(bktrGetIndirectStorageBucket(out->indirect_block, i), &tmp_bucket, sizeof(BktrIndirectStorageBucket));
}
for(u32 i = 0; (i + 1) < out->indirect_block->bucket_count; i++)
{
BktrIndirectStorageBucket *cur_bucket = bktrGetIndirectStorageBucket(out->indirect_block, i);
cur_bucket->indirect_storage_entries[cur_bucket->entry_count].virtual_offset = out->indirect_block->virtual_offsets[i + 1];
}
for(u32 i = (out->aes_ctr_ex_block->bucket_count - 1); i > 0; i--)
{
BktrAesCtrExStorageBucket tmp_bucket = {0};
memcpy(&tmp_bucket, &(out->aes_ctr_ex_block->aes_ctr_ex_storage_buckets[i]), sizeof(BktrAesCtrExStorageBucket));
memcpy(bktrGetAesCtrExStorageBucket(out->aes_ctr_ex_block, i), &tmp_bucket, sizeof(BktrAesCtrExStorageBucket));
}
for(u32 i = 0; (i + 1) < out->aes_ctr_ex_block->bucket_count; i++)
{
BktrAesCtrExStorageBucket *cur_bucket = bktrGetAesCtrExStorageBucket(out->aes_ctr_ex_block, i);
BktrAesCtrExStorageBucket *next_bucket = bktrGetAesCtrExStorageBucket(out->aes_ctr_ex_block, i + 1);
cur_bucket->aes_ctr_ex_storage_entries[cur_bucket->entry_count].offset = next_bucket->aes_ctr_ex_storage_entries[0].offset;
cur_bucket->aes_ctr_ex_storage_entries[cur_bucket->entry_count].generation = next_bucket->aes_ctr_ex_storage_entries[0].generation;
}
BktrIndirectStorageBucket *last_indirect_bucket = bktrGetIndirectStorageBucket(out->indirect_block, out->indirect_block->bucket_count - 1);
BktrAesCtrExStorageBucket *last_aes_ctr_ex_bucket = bktrGetAesCtrExStorageBucket(out->aes_ctr_ex_block, out->aes_ctr_ex_block->bucket_count - 1);
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last_indirect_bucket->indirect_storage_entries[last_indirect_bucket->entry_count].virtual_offset = out->indirect_block->virtual_size;
last_aes_ctr_ex_bucket->aes_ctr_ex_storage_entries[last_aes_ctr_ex_bucket->entry_count].offset = patch_info->indirect_bucket.offset;
last_aes_ctr_ex_bucket->aes_ctr_ex_storage_entries[last_aes_ctr_ex_bucket->entry_count].generation = update_nca_fs_ctx->header.aes_ctr_upper_iv.generation;
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last_aes_ctr_ex_bucket->aes_ctr_ex_storage_entries[last_aes_ctr_ex_bucket->entry_count + 1].offset = update_nca_fs_ctx->section_size;
last_aes_ctr_ex_bucket->aes_ctr_ex_storage_entries[last_aes_ctr_ex_bucket->entry_count + 1].generation = 0;
/* Initialize update NCA RomFS context. */
/* Don't verify offsets from Patch RomFS sections, because they reflect the full, patched RomFS image. */
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out->patch_romfs_ctx.nca_fs_ctx = update_nca_fs_ctx;
out->patch_romfs_ctx.offset = out->offset = update_nca_fs_ctx->header.hash_data.integrity_meta_info.info_level_hash.level_information[NCA_IVFC_LEVEL_COUNT - 1].offset;
out->patch_romfs_ctx.size = out->size = update_nca_fs_ctx->header.hash_data.integrity_meta_info.info_level_hash.level_information[NCA_IVFC_LEVEL_COUNT - 1].size;
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/* Read update NCA RomFS header. */
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if (!bktrPhysicalSectionRead(out, &(out->patch_romfs_ctx.header), sizeof(RomFileSystemHeader), out->patch_romfs_ctx.offset))
{
LOG_MSG("Failed to read update NCA RomFS header!");
goto end;
}
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if (out->patch_romfs_ctx.header.cur_format.header_size != ROMFS_HEADER_SIZE)
{
LOG_MSG("Invalid update NCA RomFS header size!");
dump_patch_romfs_header = true;
goto end;
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}
/* Read directory entries table. */
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u64 dir_table_offset = out->patch_romfs_ctx.header.cur_format.directory_entry_offset;
out->patch_romfs_ctx.dir_table_size = out->patch_romfs_ctx.header.cur_format.directory_entry_size;
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if (!dir_table_offset || !out->patch_romfs_ctx.dir_table_size)
{
LOG_MSG("Invalid update NCA RomFS directory entries table!");
dump_patch_romfs_header = true;
goto end;
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}
out->patch_romfs_ctx.dir_table = malloc(out->patch_romfs_ctx.dir_table_size);
if (!out->patch_romfs_ctx.dir_table)
{
LOG_MSG("Unable to allocate memory for the update NCA RomFS directory entries table!");
goto end;
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}
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if (!bktrPhysicalSectionRead(out, out->patch_romfs_ctx.dir_table, out->patch_romfs_ctx.dir_table_size, out->patch_romfs_ctx.offset + dir_table_offset))
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{
LOG_MSG("Failed to read update NCA RomFS directory entries table!");
goto end;
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}
/* Read file entries table. */
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u64 file_table_offset = out->patch_romfs_ctx.header.cur_format.file_entry_offset;
out->patch_romfs_ctx.file_table_size = out->patch_romfs_ctx.header.cur_format.file_entry_size;
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if (!file_table_offset || !out->patch_romfs_ctx.file_table_size)
{
LOG_MSG("Invalid update NCA RomFS file entries table!");
dump_patch_romfs_header = true;
goto end;
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}
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out->patch_romfs_ctx.file_table = malloc(out->patch_romfs_ctx.file_table_size);
if (!out->patch_romfs_ctx.file_table)
{
LOG_MSG("Unable to allocate memory for the update NCA RomFS file entries table!");
goto end;
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}
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if (!bktrPhysicalSectionRead(out, out->patch_romfs_ctx.file_table, out->patch_romfs_ctx.file_table_size, out->patch_romfs_ctx.offset + file_table_offset))
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{
LOG_MSG("Failed to read update NCA RomFS file entries table!");
goto end;
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}
/* Get file data body offset. */
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out->patch_romfs_ctx.body_offset = out->body_offset = out->patch_romfs_ctx.header.cur_format.body_offset;
success = true;
end:
if (!success)
{
if (dump_patch_romfs_header) LOG_DATA(&(out->patch_romfs_ctx.header), sizeof(RomFileSystemHeader), "Update RomFS header dump:");
bktrFreeContext(out);
}
return success;
}
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bool bktrReadFileSystemData(BktrContext *ctx, void *out, u64 read_size, u64 offset)
{
if (!ctx || !ctx->size || !out || !read_size || (offset + read_size) > ctx->size)
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{
LOG_MSG("Invalid parameters!");
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return false;
}
/* Read filesystem data. */
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if (!bktrPhysicalSectionRead(ctx, out, read_size, ctx->offset + offset))
{
LOG_MSG("Failed to read Patch RomFS data!");
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return false;
}
return true;
}
bool bktrReadFileEntryData(BktrContext *ctx, RomFileSystemFileEntry *file_entry, void *out, u64 read_size, u64 offset)
{
if (!ctx || !ctx->body_offset || !file_entry || !file_entry->size || (file_entry->offset + file_entry->size) > ctx->size || !out || !read_size || (offset + read_size) > file_entry->size)
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{
LOG_MSG("Invalid parameters!");
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return false;
}
/* Read entry data. */
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if (!bktrReadFileSystemData(ctx, out, read_size, ctx->body_offset + file_entry->offset + offset))
{
LOG_MSG("Failed to read Patch RomFS file entry data!");
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return false;
}
return true;
}
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bool bktrIsFileEntryUpdated(BktrContext *ctx, RomFileSystemFileEntry *file_entry, bool *out)
{
if (!ctx || !ctx->body_offset || !ctx->indirect_block || !file_entry || !file_entry->size || (file_entry->offset + file_entry->size) > ctx->size || !out)
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{
LOG_MSG("Invalid parameters!");
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return false;
}
bool updated = false;
u64 file_offset = (ctx->offset + ctx->body_offset + file_entry->offset);
BktrIndirectStorageEntry *indirect_entry = NULL, *last_indirect_entry = NULL;
indirect_entry = bktrGetIndirectStorageEntry(ctx->indirect_block, file_offset);
if (!indirect_entry)
{
LOG_MSG("Error retrieving BKTR Indirect Storage Entry at offset 0x%lX!", file_offset);
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return false;
}
last_indirect_entry = indirect_entry;
while(last_indirect_entry->virtual_offset < (file_offset + file_entry->size)) last_indirect_entry++;
while(indirect_entry < last_indirect_entry)
{
if (indirect_entry->indirect_storage_index == BktrIndirectStorageIndex_Patch)
{
updated = true;
break;
}
indirect_entry++;
}
*out = updated;
return true;
}
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static bool bktrPhysicalSectionRead(BktrContext *ctx, void *out, u64 read_size, u64 offset)
{
if (!ctx || (!ctx->missing_base_romfs && !ctx->base_romfs_ctx.nca_fs_ctx) || !ctx->indirect_block || !out || !read_size)
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{
LOG_MSG("Invalid parameters!");
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return false;
}
BktrIndirectStorageEntry *indirect_entry = NULL, *next_indirect_entry = NULL;
u64 section_offset = 0, indirect_block_size = 0;
/* Determine which FS section to use + the actual offset to start reading from. */
/* There's no better way to do this than making all BKTR addresses virtual. */
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indirect_entry = bktrGetIndirectStorageEntry(ctx->indirect_block, offset);
if (!indirect_entry)
{
LOG_MSG("Error retrieving BKTR Indirect Storage Entry at offset 0x%lX!", offset);
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return false;
}
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next_indirect_entry = (indirect_entry + 1);
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section_offset = (offset - indirect_entry->virtual_offset + indirect_entry->physical_offset);
/* Perform read operation. */
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bool success = false;
if ((offset + read_size) <= next_indirect_entry->virtual_offset)
{
/* Read only within the current indirect storage entry. */
/* If we're not dealing with an indirect storage entry with a patch index, just retrieve the data from the base RomFS. */
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if (indirect_entry->indirect_storage_index == BktrIndirectStorageIndex_Patch)
{
success = bktrAesCtrExStorageRead(ctx, out, read_size, offset, section_offset);
if (!success) LOG_MSG("Failed to read 0x%lX bytes block from BKTR AesCtrEx storage at offset 0x%lX!", read_size, section_offset);
} else
if (!ctx->missing_base_romfs)
{
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success = ncaReadFsSection(ctx->base_romfs_ctx.nca_fs_ctx, out, read_size, section_offset);
if (!success) LOG_MSG("Failed to read 0x%lX bytes block from base RomFS at offset 0x%lX!", read_size, section_offset);
} else {
LOG_MSG("Attempting to read 0x%lX bytes block from non-existent base RomFS at offset 0x%lX!", read_size, section_offset);
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}
} else {
/* Handle reads that span multiple indirect storage entries. */
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indirect_block_size = (next_indirect_entry->virtual_offset - offset);
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success = (bktrPhysicalSectionRead(ctx, out, indirect_block_size, offset) && \
bktrPhysicalSectionRead(ctx, (u8*)out + indirect_block_size, read_size - indirect_block_size, offset + indirect_block_size));
if (!success) LOG_MSG("Failed to read 0x%lX bytes block from multiple BKTR indirect storage entries at offset 0x%lX!", read_size, section_offset);
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}
return success;
}
static bool bktrAesCtrExStorageRead(BktrContext *ctx, void *out, u64 read_size, u64 virtual_offset, u64 section_offset)
{
BktrAesCtrExStorageEntry *aes_ctr_ex_entry = NULL, *next_aes_ctr_ex_entry = NULL;
if (!ctx || !ctx->patch_romfs_ctx.nca_fs_ctx || !ctx->aes_ctr_ex_block || !out || !read_size)
{
LOG_MSG("Invalid parameters!");
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return false;
}
aes_ctr_ex_entry = bktrGetAesCtrExStorageEntry(ctx->aes_ctr_ex_block, section_offset);
if (!aes_ctr_ex_entry)
{
LOG_MSG("Error retrieving BKTR AesCtrEx Storage Entry at offset 0x%lX!", section_offset);
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return false;
}
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next_aes_ctr_ex_entry = (aes_ctr_ex_entry + 1);
/* Perform read operation. */
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bool success = false;
if ((section_offset + read_size) <= next_aes_ctr_ex_entry->offset)
{
/* Read only within the current AesCtrEx storage entry. */
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success = ncaReadAesCtrExStorageFromBktrSection(ctx->patch_romfs_ctx.nca_fs_ctx, out, read_size, section_offset, aes_ctr_ex_entry->generation);
} else {
/* Handle read that spans multiple AesCtrEx storage entries. */
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u64 aes_ctr_ex_block_size = (next_aes_ctr_ex_entry->offset - section_offset);
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success = (bktrPhysicalSectionRead(ctx, out, aes_ctr_ex_block_size, virtual_offset) && \
bktrPhysicalSectionRead(ctx, (u8*)out + aes_ctr_ex_block_size, read_size - aes_ctr_ex_block_size, virtual_offset + aes_ctr_ex_block_size));
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}
return success;
}
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NX_INLINE BktrIndirectStorageBucket *bktrGetIndirectStorageBucket(BktrIndirectStorageBlock *block, u32 bucket_num)
{
if (!block || bucket_num >= block->bucket_count) return NULL;
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return (BktrIndirectStorageBucket*)((u8*)block->indirect_storage_buckets + ((sizeof(BktrIndirectStorageBucket) + sizeof(BktrIndirectStorageEntry)) * (u64)bucket_num));
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}
static BktrIndirectStorageEntry *bktrGetIndirectStorageEntry(BktrIndirectStorageBlock *block, u64 offset)
{
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if (!block || !block->bucket_count || offset >= block->virtual_size)
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{
LOG_MSG("Invalid parameters!");
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return NULL;
}
u32 bucket_num = 0;
BktrIndirectStorageBucket *bucket = NULL;
for(u32 i = 1; i < block->bucket_count; i++)
{
if (block->virtual_offsets[i] <= offset) bucket_num++;
}
bucket = bktrGetIndirectStorageBucket(block, bucket_num);
if (!bucket || !bucket->entry_count)
{
LOG_MSG("Error retrieving BKTR indirect storage bucket #%u!", bucket_num);
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return NULL;
}
/* Check for edge case, short circuit. */
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if (bucket->entry_count == 1) return &(bucket->indirect_storage_entries[0]);
/* Binary search. */
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u32 low = 0, high = (bucket->entry_count - 1);
while(low <= high)
{
u32 mid = ((low + high) / 2);
if (bucket->indirect_storage_entries[mid].virtual_offset > offset)
{
/* Too high. */
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high = (mid - 1);
} else {
/* Check for success. */
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if (mid == (bucket->entry_count - 1) || bucket->indirect_storage_entries[mid + 1].virtual_offset > offset) return &(bucket->indirect_storage_entries[mid]);
low = (mid + 1);
}
}
LOG_MSG("Failed to find offset 0x%lX in BKTR indirect storage block!", offset);
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return NULL;
}
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NX_INLINE BktrAesCtrExStorageBucket *bktrGetAesCtrExStorageBucket(BktrAesCtrExStorageBlock *block, u32 bucket_num)
{
if (!block || bucket_num >= block->bucket_count) return NULL;
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return (BktrAesCtrExStorageBucket*)((u8*)block->aes_ctr_ex_storage_buckets + ((sizeof(BktrAesCtrExStorageBucket) + sizeof(BktrAesCtrExStorageEntry)) * (u64)bucket_num));
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}
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static BktrAesCtrExStorageEntry *bktrGetAesCtrExStorageEntry(BktrAesCtrExStorageBlock *block, u64 offset)
{
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if (!block || !block->bucket_count || offset >= block->physical_size)
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{
LOG_MSG("Invalid parameters!");
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return NULL;
}
u32 bucket_num = 0;
BktrAesCtrExStorageBucket *last_bucket = NULL, *bucket = NULL;
last_bucket = bktrGetAesCtrExStorageBucket(block, block->bucket_count - 1);
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if (!last_bucket || !last_bucket->entry_count)
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{
LOG_MSG("Error retrieving last BKTR AesCtrEx storage bucket!");
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return NULL;
}
if (offset >= last_bucket->aes_ctr_ex_storage_entries[last_bucket->entry_count].offset) return &(last_bucket->aes_ctr_ex_storage_entries[last_bucket->entry_count]);
for(u32 i = 1; i < block->bucket_count; i++)
{
if (block->physical_offsets[i] <= offset) bucket_num++;
}
bucket = bktrGetAesCtrExStorageBucket(block, bucket_num);
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if (!bucket || !bucket->entry_count)
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{
LOG_MSG("Error retrieving BKTR AesCtrEx storage bucket #%u!", bucket_num);
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return NULL;
}
/* Check for edge case, short circuit. */
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if (bucket->entry_count == 1) return &(bucket->aes_ctr_ex_storage_entries[0]);
/* Binary search. */
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u32 low = 0, high = (bucket->entry_count - 1);
while(low <= high)
{
u32 mid = ((low + high) / 2);
if (bucket->aes_ctr_ex_storage_entries[mid].offset > offset)
{
/* Too high. */
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high = (mid - 1);
} else {
/* Check for success. */
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if (mid == (bucket->entry_count - 1) || bucket->aes_ctr_ex_storage_entries[mid + 1].offset > offset) return &(bucket->aes_ctr_ex_storage_entries[mid]);
low = (mid + 1);
}
}
LOG_MSG("Failed to find offset 0x%lX in BKTR AesCtrEx storage block!", offset);
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return NULL;
}